CN100362291C - Solar high-temperature vacuum pipe - Google Patents

Abstract

The present invention relates to the improvement of a solar high-temperature vacuum tube, which belongs to the technical field of solar heat utilization. The vacuum tube of the present invention comprises a glass inner tube, a glass outer tube, a metal tube, a working fluid outlet tube, and a working fluid inlet tube, wherein the metal tube is arranged in the glass inner tube; the working fluid outlet tube and the working fluid inlet tube are respectively communicated with both ends of the metal tube; a sandwich layer formed by the glass inner tube and the glass outer tube is evacuated, wherein a gap which is retained between the glass inner tube and the metal tube can be filled with fluid which is dark in color as a heat absorbing layer. Both ends of each glass tube are respectively provided with two groups of structural members formed by vacuum annular heat-insulating cavities and corrugated tubes, wherein the inner side of each annular heat-insulating cavity is hermetically and fixedly connected with the metal tube, and the outer side is hermetically connected with one end of each corrugated tube by a fastener; the other end of each corrugated tube is fixedly connected with the glass outer tube. The present invention which does not form the heat absorbing layer by adopting special processes, such as magnetron sputtering, etc., is helpful to the great reduction of the manufacturing cost of the vacuum tube; simultaneously, the present invention which reasonably solves the problem of the sealing between a glass and a metal materials can ensure the long-term vacuum degree between the glass tubes.

Description

Solar high-temperature vacuum pipe

Technical field

The present invention relates to a kind of improvement of solar high-temperature vacuum pipe, this vacuum tube can be used as the receiver of Solar Energy Heat Utilization System, belongs to the solar energy utilization technique field.

Background technology

The trough type solar power generation system is a kind of typical high temperature helioplant, and its core component is a high-temperature receiver.This type systematic adopts the grooved curved reflector, and the incident sunlight reflected is focused to a line, and the receiver that is placed on this focal line can absorb the sunlight heating working medium, the high temperature and high pressure steam of generation, the generating of pushing turbine group.

Vacuum heat collection pipe is a high-temperature receiver commonly used in a kind of trough type solar power generation system.Its typical structure is at a metal circular tube surface-coated selective absorbing film, and in concentric glass round tube of metal tube outside cover, vacuumizes in the interlayer, so that in protection thermal-collecting tube surface selectivity coating, reduce the thermal-arrest loss.Facts have proved that there is following major defect in this vacuum heat-collecting tubular construction that generally adopts: under (1) high temperature, coating wears out easily, comes off, and being difficult to long term maintenance should have performance; The technological requirement of coating making simultaneously is relatively stricter, causes cost higher; (2) sealing technology between glass and the metal fails to be well solved, cause gas leakage easily, this is because aspects such as the temperature between environment for use lower-glass pipe and metal and the coefficient of expansion all differ greatly, and therefore is difficult to guarantee the long-term vacuum that keeps under the outdoor condition.

More than two hang-ups troubled always and restricted relevant solar utilization technique progress.

Summary of the invention

Primary and foremost purpose of the present invention is, at above prior art first difficult problem, proposes a kind ofly guaranteeing under the desirable endothermic effect prerequisite, need not the solar high-temperature vacuum pipe of coating process.

Further aim of the present invention is, at second difficult problem of above prior art existence, thereby proposes the solar high-temperature vacuum pipe that a kind of expansion coefficient difference that can properly coordinate between glass and the metal keeps vacuum between the glass tube for a long time.

In order to reach above primary and foremost purpose, the technical scheme of solar high-temperature vacuum pipe of the present invention is: a kind of solar high-temperature vacuum pipe, comprise inside and outside layer glass pipe, be installed in the metal tube in the glass inner tube, working fluid outlet and the inlet tube that is communicated with the metal tube two ends respectively, vacuumize in the interlayer that described glass inner tube and outer tube form, its improvement is: leave the slit between described glass inner tube and the metal tube, but in the described slit the dark fluid of filling as heat-sink shell.

In order to reach above further purpose, two groups of structural members that are made of vacuum annular heat-insulation chamber and bellows are equipped with at the glass tube two ends of solar high-temperature vacuum pipe of the present invention respectively, the inboard of described annular heat-insulation chamber and metal tube sealing are connected, the outside is tightly connected by an end of securing member and bellows, and the other end of described bellows is fixedlyed connected with outer layer glass tube.

Like this, on the one hand, the absorbed layer on metal tube surface does not adopt formation such as magnetron sputtering special process, but directly realize by the dark color that plays the heat-sink shell effect (especially black) of filling in the slit object that can flow, thereby avoided highly difficult coating process, the material range of choice that can be elected to be heat-sink shell simultaneously enlarges greatly, helps to reduce significantly the manufacturing cost of vacuum tube.On the other hand, the present invention is by the structural member of vacuum annular heat-insulation chamber and bellows formation, properly settled the sealing-in problem between glass and metal material, both can effectively reduce of the transmission of the heat energy of metal tube to glass tube, the ingenious again axial elasticity that utilizes bellows of while, flow of metal or the glass breakage phenomenon of having avoided the thermal coefficient of expansion difference to cause have been guaranteed the long-term vacuum between the glass tube.

Description of drawings

The present invention will be further described below in conjunction with accompanying drawing and exemplary embodiments.

Fig. 1 has comprised the structural representation of an exemplary embodiments of the present invention.

Fig. 2 A is the profile of Fig. 2 B, and Fig. 2 B is the partial structurtes schematic diagram of Fig. 1.

Fig. 3 is the embodiment of the invention two structural representations.

The specific embodiment

Embodiment one

Fig. 1 and Fig. 2 A and Fig. 2 B have showed the collecting system part of adopting high-temperature vacuum pipe of the present invention, high-temperature vacuum pipe wherein has typical structure, comprise inside and outside layer glass pipe 1, with one heart be supported in metal tube 2, working fluid outlet 3 and the inlet tube 4 that is connected with metal tube 2 two ends in the pipe.Vacuumize between the inside and outside layer glass pipe, leave the slit between inner layer glass tube and the metal tube 2, but in the slit in the slit filling dark color (being generally black) fluid 5 as heat-sink shell.Metal tube 2 is withstand voltage, heatproof metal tube, and wherein direct water is as working fluid.

Contain two groups of structural members that constitute by vacuum annular heat-insulation chamber 6 and bellows 7 in this high-temperature vacuum pipe, lay respectively at the glass tube two ends.The inboard of every group of annular heat-insulation chamber 6 and metal tube 2 sealings are connected, annular heat-insulation chamber 6 essence in this example are that a cross section is step-like metal short tube, the perforation of its small end and metal tube 2 external diameters match, mutual seal welding, the cylindrical of small end is shaped on screw thread, by the fixing end of bellows 7 of refractory seals spare 8 and clamp nut 9 pressure holdings, the other end of this bellows 7 and outer layer glass tube are bonding by the binding material sealing, and sealing ring is housed blocks dark fluid and flow to bellows.Like this, not only ingenious but also reasonably solved sealing-in problem between glass and metal material.

The two ends of metal tube 2 are fixed with the bushing 10,11 that flows into and flow out for working fluid respectively near the position of import and export pipe, have many apertures on the bushing.Be filled with a large amount of heat storage material 12 in the metal tube between two bushings.Check valve 13 and valve 14 are housed respectively in the pipeline of inlet tube 3 and outlet 4.

During work, at first pump into WATER AS FLOW MEDIUM by high-pressure pump 15 in water inlet manifold 16, flow into inlet tube 4 via valve 14 and check valve 13, the bushing 10 through metal tube one side enters in the interior metal tube of vacuum tube again.At this, because the black of heat-sink shell or dark fluid 5 constantly absorb solar energy, heat is passed to working fluid in the metal tube and heat storage material 12 (heat storage material 12 in the metal tube can provide bigger heat exchange area and sufficient heat exchanger time) in a steady stream, water temperature in the pipe is raise, until vaporization.

Along with flowing and heating of water, constantly produce high temperature and high pressure steam, bushing 11, check valve 13, valve by the metal tube opposite side flows into outlet 3 at last, gathers into the house steward 18 that gives vent to anger, and is sent to the Turbo-generator Set generating once more after heat storage material 17 accumulation of heats in the house steward 18 that gives vent to anger.

Experimental results show that, in system shown in Figure 1, on the one hand, the heat absorption on metal tube 2 surfaces is directly realized by the black that plays heat-absorbing action or other dark fluid 5 of filling in the ring-like slit, do not adopt traditional special process such as magnetic sputtering coating to form, overcome the coating process difficulty, expended the high problem of cost, the material range of choice that can be elected to be heat-sink shell simultaneously enlarges greatly, thereby greatly reduces the manufacturing cost of vacuum tube; On the other hand, this system is by the structural member of vacuum annular heat-insulation chamber 6 and bellows 7 formations, the solution of science between glass and metal material the sealing-in problem---vacuum annular heat-insulation chamber 6 effectively reduces the transmission of the heat energy of metal tube 2 to glass tube 1, utilize the axial elasticity of bellows 7 to avoid thermal coefficient of expansion different and the flow of metal or the glass breakage phenomenon that cause simultaneously, thereby can keep the vacuum between the glass tube for a long time.

Embodiment two

The structural representation of present embodiment as shown in Figure 3.Compare with embodiment one, be characterized in: the working fluid in the metal tube is not a water, but conduction oil or silicone oil.Like this, the bushing that can need not to load heat storage material in the metal tube and two ends are installed.Heat transferred turbine work medium---the water that by additional heat-exchange device conduction oil is absorbed in the system.

The structure of other parts and action principle thereof are identical with embodiment one, repeat no more.

This shows, the solar high-temperature vacuum pipe of present embodiment has been properly settled the easy problem of aging of heat-absorbing material and the maintenance difficult problem of vacuum, be specially adapted to the generating of solar groove type optically focused heat and wait the high temperature use device, will play positive facilitation for the heat utilization that promotes solar energy.

In addition to the implementation, the present invention can also have other embodiments.All employings are equal to the technical scheme of replacement or equivalent transformation formation, all drop in the protection domain of requirement of the present invention.

Claims (7)

1. solar high-temperature vacuum pipe, comprise inside and outside layer glass pipe, be installed in the metal tube in the glass inner tube, working fluid outlet and the inlet tube that is communicated with the metal tube two ends respectively, vacuumize in the interlayer that described glass inner tube and outer tube form, it is characterized in that: leave the slit between described glass inner tube and the metal tube, the dark fluid of filling is as heat-sink shell in the described slit.

2. solar high-temperature vacuum pipe according to claim 1, it is characterized in that: two groups of structural members that are made of vacuum annular heat-insulation chamber and bellows are equipped with at described glass tube two ends respectively, the inboard of described annular heat-insulation chamber and metal tube sealing are connected, the outside is tightly connected by an end of securing member and bellows, and the other end of described bellows is fixedlyed connected with outer layer glass tube.

3. according to the described solar high-temperature vacuum pipe of claim 2, it is characterized in that: the both sides of described metal tube are fixed with the bushing that flows into and flow out for working fluid respectively, have aperture on the described bushing, are filled with heat storage material in the metal tube between two bushings.

4. solar high-temperature vacuum pipe according to claim 3, it is characterized in that: described annular heat-insulation chamber is that a cross section is step-like metal short tube, the perforation of its small end and described metal tube external diameter match, mutual seal welding, the cylindrical of described small end is shaped on screw thread, by the fixing end of bellows of refractory seals spare and clamp nut pressure holding.

5. solar high-temperature vacuum pipe according to claim 4 is characterized in that: the other end of described bellows and outer layer glass tube are bonding by binding material sealing, and are equipped with and block the sealing ring that the heat-sink shell fluid flows to bellows.

6. solar high-temperature vacuum pipe according to claim 5 is characterized in that: metal tube is withstand voltage, heatproof metal tube.

7. solar high-temperature vacuum pipe according to claim 6 is characterized in that: check valve and valve are housed respectively in the pipeline of described inlet tube and outlet.

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